JP2542368B2 - Heat pump system with bath and bathroom units - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention serves as an indoor unit for air-conditioning a room, a bath unit for supplying hot water to a bath, a bathroom unit for heating a bathroom, and a heat source thereof. The present invention relates to a heat pump system with a bath unit and a bathroom unit, which includes a heat source side unit and a refrigerant circuit connecting the units.

(Prior Art) Conventionally, as a bathroom unit, one using an electric heater or the like is known, but this has poor energy efficiency,
To improve this, it is conceivable to use the heat pump system used for air conditioning. In this case, the system normally shown in FIG. 4 is used. FIG. 4 is a schematic block diagram, in which 1 is an outdoor unit as a heat source side unit, and this outdoor unit 1 is equipped with a compressor and an outdoor heat exchanger as a heat source heat exchanger. Has been. 2,
Reference numeral 2 is an indoor unit having an indoor heat exchanger for air-conditioning the interior of the room, and 3 is a hot water storage unit having a built-in hot water storage tank having a hot water heat exchanger for heating the stored water inside.

4 is a unit type bathroom, and a bathtub 5 in this bathroom 4
The bath heat exchanger 6, the bath 5 and the bath heat exchanger 6
A bath unit 8 having a circulation pump 7 that circulates and flows the hot water is provided, and by operating the circulation pump 7, the hot water in the bath 5 can be heated for additional heating.

A bathroom unit 11 including a heat exchanger 9 for heating the bathroom and a blower fan 10 is provided on the side wall of the bathroom 4, and the blower fan 10 operates to heat the inside of the bathroom 4 for heating and drying. It has become so. Reference numeral 12 in the figure denotes a currant for supplying hot water from the hot water storage unit 3 to the bathtub 5.

The outdoor unit 1, the indoor side heat exchanger and the hot water storage heat exchanger provided in each of the indoor units 2 and 2 and the hot water storage unit 3, the bathtub heat exchanger 6, and the bathroom heating heat exchanger 9 Each of them is a pair of refrigerant flow pipes 51a, 51b, 51a, 51b, 52a, 52b, 53a, 53b, 54a, 54b.
And a refrigerant circuit for each of the indoor units 2, 2, the hot water storage unit 3, the bathtub unit 8, and the bathroom unit 11 are formed.

(Problems to be Solved by the Invention) However, in the one having such a configuration, when the bathtub unit 8 and the bathroom unit 11 are unloaded,
A total of four refrigerant flow pipes 53a, 53b, 5 for indoors and outdoors
Since 4a and 54b had to be connected, it took a lot of time to install and the construction cost was high.

Further, each of the refrigerant flow pipes 53a, 53b, 54a, 54b,
It requires long piping because it extends indoors and outdoors,
There is a drawback that the material cost becomes expensive.

In order to improve these drawbacks, it is possible to separate both the bathtub unit and the bathroom unit from the other units to form an independent heat pump system and an independent unit, but in this case, the device itself is It is large in size, requires a large installation space, and requires two heat pump circuits, which is expensive. When this is downsized, there is a drawback that the capacity becomes small.

The present invention has been made in view of such circumstances, improves the energy efficiency, the bath unit and the bathroom unit can be installed with less labor and at a low cost,
The purpose is to enable further miniaturization.

(Means for Solving the Problems) In order to achieve such an object, the present invention provides a heat pump system with a bath unit and a bathroom unit in a room provided with an indoor heat exchanger (17) for air conditioning the room. A bath unit (8) comprising a unit (2), a bath heat exchanger (6), and a circulation pump (7) for circulating hot water over the bath (5) and the bath heat exchanger (6) ,
A bathroom unit (11) having a bathroom heating heat exchanger (9) and a blower fan (10) for sending the heat of the bathroom heating heat exchanger (9) into the bathroom (4), and a compressor (13) ) And a heat source heat exchanger (14), an indoor heat exchanger (17), the bath heat exchanger (6), and the bathroom heating heat exchanger (9). And a heat source heat exchanger (14) and a refrigerant circuit for flowing a refrigerant from the compressor (13), and a pair of bathtub pipe connection ports (provided in the bathtub heat exchanger (6) ( One of (19a) (19a) (19a) and the heat exchanger (14) for heat source are connected via the first refrigerant flow pipe (20), and the pair of bathtub pipe connection ports (19a) ) (19b) the other (19b) and one of the pair of bathroom pipe connection ports (21a) (21b) (21a) provided in the bathroom heating heat exchanger (9). The second refrigerant is connected via the two refrigerant flow pipes (22), and the other (21b) of the pair of bathroom pipe connection ports (21a, 21b) and the heat source heat exchanger (14) are connected to the third refrigerant. The circulation pump (7) and the blower fan (10) are selectively driven while connected through a flow pipe (23), and the bathtub unit (8) and the bathroom unit (11) And are each composed of a separate unit.

(Operation) According to this configuration, one refrigerant flow pipe (20) is provided between the heat exchanger (6) for bathtub, the heat exchanger (9) for bathroom heating, and the heat exchanger (14) for heat source. ) (22) (23) can be connected in series.

In addition, the circulation pump (7) and the blower fan (10) are selectively driven, so that the bath heat exchanger (6) and the bathroom heating heat exchanger (9) can efficiently exchange heat. The heating of the hot water in the bathtub (5) and the heating of the bathroom (4) are performed well.

(Example) Hereinafter, an example according to the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic block diagram of a heat pump system with a bath unit and a bathroom unit according to the first embodiment of the present invention, in which 1 is an outdoor unit as a heat source side unit, 2 and 2 are indoor units, A hot water storage tank 3 serves as a hot water storage unit.

4 is a unit type bathroom, 5 is a bathtub, and this bathtub 5
Is provided with a bathtub unit 8 including a bath heat exchanger 6 and a circulation pump 7, and a bathroom unit 11 including a bathroom heating heat exchanger 9 and a blower fan 10 on a sidewall of the bathroom 4.
Is provided. In the figure, 12 is a karan.

The function of each of the above-described devices is the same as that described above, and thus the description thereof is omitted here.

Each of the bathtub unit 8 and the bathroom unit 11 is provided in a dedicated casing A ₁ , A ₂ and is configured as an individual unit.
It is configured to be attached at any position.

As shown in the refrigerant circuit diagram of FIG. 2, the outdoor unit 1 includes a compressor 13 and an outdoor heat exchanger as a heat source heat exchanger.
14, a receiver 15, an accumulator 16, first to fourth electric expansion valves EV ₀ , EV ₁ , EV ₂ and EV ₃ , and first and second four-way switching valves SV ₁ and SV ₂ are provided. There is.

Further, the outdoor unit 1 includes the first to fifth solenoid valves SV ₃ , SV ₄ ,
SV ₅ , SV ₆ , SV ₇ , first to fourth opening / closing valves V ₁ , V ₂ , V ₃ , V ₄ , and a check valve V ₅ are provided.

In the figure, 17 and 17 are indoor heat exchangers 18 provided in the indoor units 2 and 2, respectively, and hot water storage heat exchangers provided in the hot water storage unit 3. And the heat exchanger 6 for bathtubs
One of the pair of bathtub piping connection ports 19a, 19b and the outdoor heat exchanger 14 provided for the first refrigerant flow pipe 2
One of the pair of bathtub piping connection ports 21a, 21b provided in the bathroom heating heat exchanger 9 and the other of the pair of bathtub piping connection ports 19a, 19b. 21a is connected via a second refrigerant flow pipe 22. Further, the other 21b of the pair of bathroom pipe connection ports 21a, 21b and the outdoor heat exchanger 14 are connected to the third refrigerant flow pipe 23.
By this, the refrigerant is circulated and circulated in series across the outdoor heat exchanger 14, the bath heat exchanger 6, and the bathroom heating heat exchanger 9.

The first to fourth electric expansion valves EV ₀ , EV ₁ , EV ₂ , EV ₃ , first and second four-way switching valves SV ₁ , SV ₂ , first to fifth solenoid valves SV ₃ , SV ₄ , SV ₅ , SV ₆ , SV ₇ and 1st to 4th open / close valves V ₁ , V ₂ , V
₃ , V ₄ and each one-way valve V ₅ are configured to be automatically switched by the control means, and by the switching control, a cooling operation mode, a heating operation mode, a reheating / drying operation mode and a hot water supply operation are performed. The mode can be switched to each mode, and each mode will be described next.

Cooling operation mode Compressor 13 → first four-way switching valve SV ₁ → second four-way switching valve SV ₂ →
Outdoor heat exchanger 14 → first electric expansion valve EV ₀ (fully open) → liquid receiver 15 → first closing valve V ₁ → third electric expansion valve EV ₂ , fourth electric expansion valve EV ₃ (superheat expansion valve Hereinafter, referred to as SH control.) → indoor heat exchanger 17 (17) → second closing valve V ₂ → second
A four-way switching valve SV ₂ → accumulator 16 → compressor 13 forms a refrigerant flow path that circulates, and the amount of heat absorbed from the indoor side by the indoor heat exchanger 17 by the operation of the compressor 13 is transferred to the outdoor heat exchanger 14 The heat is radiated to the outside to cool the room.

Heating operation mode Compressor 13 → 1st four-way switching valve SV ₁ → 2nd four-way switching valve SV ₂ →
2nd closing valve V _2- > indoor side heat exchanger 17 (17)-> 3rd electric expansion valve EV ₂ , 4th electric expansion valve EV ₃ (acting as a supercooling expansion valve. Hereinafter referred to as SC control)-> 1st Shut-off valve V ₁ → receiver 15 →
First electric expansion valve EV ₀ (SH control) → outdoor heat exchanger 14 → second four-way switching valve SV ₂ → accumulator 16 → compressor 13 forms a refrigerant flow path that circulates and operates compressor 13 By
The amount of heat absorbed from the outside by the outdoor heat exchanger 14 is radiated to the room by the indoor heat exchanger 17 to heat the room.

Reheating / drying operation mode Compressor 13 → 1st 4-way switching valve SV ₁ → 2nd 4-way switching valve SV ₂ →
2nd closing valve V ₂ → 3rd solenoid valve SV ₅ (open) → heat exchanger 9 for bathroom overheat → heat exchanger 6 for bathtub → 2nd electric expansion valve EV ₁ (fully opened) → 1st solenoid valve SV ₃ ( Open) → 1st shutoff valve V ₁ → receiver 15
→ 1st electric expansion valve EV ₀ (SH control) → outdoor heat exchanger 14 →
The second four-way switching valve SV ₂ → accumulator 16 → compressor 13 forms a refrigerant flow path that circulates and flows, and by the operation of the compressor 13 and the drive of the circulation pump and the blower fan 10, the outdoor heat exchanger The amount of heat absorbed from the outside by 14 is radiated to the hot water in the bathtub 5 and the bathroom 4 by the heat exchanger 6 for bathtub and the heat exchanger 9 for overheating the bathroom, thereby reheating the bath and heating the bathroom 4. Alternatively, the bathroom 4 is made to act as a drying room. The circulation pump 7 and the blower pump 10 are configured to stop the other one while driving the other. At this time, the first and third solenoid valves SV ₃ and SV ₅ are closed, and the second and fourth solenoid valves SV ₄ and SV ₅ are closed.
By opening V ₆ , a refrigerant flow path is formed in which the refrigerant circulates from the bathroom overheat heat exchanger 9 and the bath heat exchanger 6 to the indoor heat exchangers 17 and 17, and the refrigerant exhaust heat is used. Then, the bath can be reheated and the bathroom can be heated and dried.

Hot water supply operation mode Compressor 13 → 1st four-way switching valve SV ₁ → 3rd shutoff valve V ₃ → Heat exchanger 18 for hot water storage → 4th shutoff valve V ₄ → Check valve V ₅ → Receiver 15 → 1st Electric expansion valve EV ₀ (SH control) → outdoor heat exchanger 14 → second
The four-way switching valve SV ₂ → accumulator 16 → forms a refrigerant flow path that circulates and flows to the compressor 13, and the amount of heat absorbed from the outside by the outdoor heat exchanger 14 by the operation of the compressor 13 is used as the heat exchanger 18 for hot water storage. Radiates heat into the hot water storage tank 3 by
The stored water inside is heated.

FIG. 3 is a schematic block diagram of the second embodiment. The second embodiment differs from the first embodiment in the following points.

The bathtub unit 8 and the bathroom unit 11 are integrally formed by one casing A. Further, portions corresponding to one of the bathtub pipe connection ports 19a, 19b of the first embodiment 19b, one of the bathroom pipe connection ports 21a, 21b, and the second refrigerant flow pipe 22. Is formed of a series of pipes extending over the bath heat exchanger 6 and the bathroom heating heat exchanger 9. The rest of the configuration is the same as that of the first embodiment described above, and the same numbers are assigned, and the description thereof is omitted.

(Effects of the Invention) As described above, according to the present invention, since the heat pump system is adopted, the energy utilization efficiency can be improved, and since the system is a single system, the cost can be reduced and further the bathtub can be used. Since the compressor and the like are not provided in the unit and the bathroom unit but are provided in the heat source side unit, the bath unit and the like can be made compact.

Further, according to the present invention, only one refrigerant flow pipe is required to connect the heat source heat exchanger to each of the bath heat exchanger and the bathroom heating heat exchanger, and the bath heat exchanger is used. Since the heat exchanger for heating the bathroom and the heat exchanger for heating the bathroom can be connected by one refrigerant flow pipe, only three refrigerant flow pipes are required as a whole, and one can be reduced compared to the conventional four required. Moreover, since the bath heat exchanger and the bathroom heating heat exchanger are arranged close to each other, the second refrigerant flow pipe or a pipe equivalent thereto for connecting them may be short. In particular, by reducing the number of long pipes between the outdoor unit and the bathroom, both indoors and outdoors, from four to two, the material cost can be significantly reduced.

Moreover, since the heat source heat exchanger required for installing the bathtub unit and the bathroom unit has only two pipe connection ports, it is possible to reduce the labor for connecting the refrigerant flow pipes.

As a result, as a whole, the bathtub unit and the bathroom unit can be installed with less labor and at low cost.

Further, in the heat exchanger for heat source, the number of pipe connection ports to be used can be reduced by two (one set) as compared with the conventional one, and there is an advantage that an indoor unit can be easily added by utilizing these connection ports.

Furthermore, the circulation pump of the bathtub unit and the blower fan of the bathroom unit are selectively driven so as not to be used at the same time, so that the bathtub heat exchanger and the bathroom heating heat exchanger are always used. Efficient heat exchange is performed, so that even in a configuration in which the heat exchanger for bathtub, the heat exchanger for bathroom heating, and the heat exchanger for heat source are connected in series by one refrigerant flow pipe, Both the heating of the hot water and the heating of the bathroom are carried out well without any problems.

[Brief description of drawings]

FIG. 1 is a schematic block diagram of a heat pump system with a bath unit and a bathroom unit according to a first embodiment of the present invention, FIG. 2 is a refrigerant circuit diagram, and FIG. 3 is a schematic block diagram of a conventional example. 1 ... Outdoor unit as a heat source side unit, 2 ... Indoor unit, 4 ... Bathroom, 5 ... Bathtub, 6 ... Bath heat exchanger, 8 ... Bath unit, 9 ... Bathroom heat exchange Bowl, 11 ... bathroom unit, 13 ...
… Compressor, 14 …… Outdoor heat exchanger as heat source heat exchanger, 17 ……
Indoor side heat exchangers, 19a, 19b …… Bath piping connection ports, 20 …… First refrigerant flow piping, 21a, 21b …… Bathroom connection ports, 22 …… Second refrigerant flow piping, 23… ... Pipe for third refrigerant flow.

Front page continuation (72) Inventor Yukihiko 4-27, Honmachi, Higashi-ku, Osaka Takenaka Corporation Osaka Main Store (72) Inventor Takayuki Sugimoto 1000 Otani Otani, Kusatsu City 2 Daikin Industries, Ltd. Shiga In-house (72) Inventor Koyo Uchida 2 at 1000 Otani, Okamoto-cho, Kusatsu City Daikin Industrial Co., Ltd. Shiga Factory (72) Inventor Kenzo Watanabe 2 at 1000 Otani, Okamoto-cho, Kusatsu City Daikin Industry Co., Ltd. Shiga In-house (72) Inventor Tetsuo Taguchi 2 at 1000 Otani, Okamoto-cho, Kusatsu City Daikin Industry Co., Ltd. In Shiga Factory (56) Reference JP 61-29651 (JP, A) JP 62-169960 (JP-A 62-169960) JP, A) Micro application (JP, U) Practical application Sho 50-115129 (Practical application) No. 49-121931 (Practical application Sho 51-47964) Details of the specification and drawings attached to the application (Kaisho No. 52-28260) Photographed microfilm (JP, U) microfilm taken the application form to the contents of the appended specification and drawings of the actual gun Sho 57-106378 (JitsuHiraku Sho 59-No. 12946) (JP, U)

Claims (1)

(57) [Claims] 1. An indoor unit (2) having an indoor heat exchanger (17) for air conditioning the room, a bathtub heat exchanger (6), a bathtub (5) and a bathtub heat exchanger (6). A bathtub unit (8) provided with a circulation pump (7) for circulating hot water over the bath, a bathroom heating heat exchanger (9) and the heat of the bathroom heating heat exchanger (9) in the bathroom (4). A bathroom unit (11) having a blower fan (10) for sending to the outdoor unit, an outdoor unit (1) having a compressor (13) and a heat source heat exchanger (14), and the indoor heat exchanger ( 17) and the heat exchanger for the bath (6)
And a heat exchanger (9) for heating the bathroom and a heat exchanger (14) for the heat source with a refrigerant circuit for flowing a refrigerant from the compressor (13), and the heat exchanger (6) for the bathtub. One of the pair of bathtub pipe connection ports (19a) (19b) provided (19a) and the heat source heat exchanger (14) are connected via a first refrigerant flow pipe (20). The other (19b) of the pair of bathtub pipe connection ports (19a) (19b) and the pair of bathroom pipe connection ports (21a) (21b) provided in the bathroom heating heat exchanger (9). One of them (21a) is connected via a second refrigerant flow pipe (22), and the other heat exchanger for heat source is exchanged with the other (21b) of the pair of bathroom pipe connection ports (21a) (21b). The air conditioner (14) is connected through the third refrigerant flow pipe (23), and the circulation pump (7) and the blower fan (10) are selective. Are driven, and the tub unit (8) said full unit (1
A heat pump system with a bathtub unit and a bathroom unit, each consisting of 1) and 2).